Method and system for communicating over neutral power lines

ABSTRACT

A method and system for communicating over neutral power lines is provided wherein the neutral power line is isolated from the ground line and other connections, such as with transformers, by using a plurality of ferrites. The ferrites are positioned between the connections to the neutral line and the outputs of a BPL modem.

FIELD OF THE INVENTION

The invention relates to methods of communication over power lines, andmore particularly to methods of communication using neutral power lines.

BACKGROUND OF THE INVENTION

A recent development in communications technology is the transmission ofdata along standard power lines, known as broadband over power lines(BPL) or power line communication. The use of power line communicationsposes a number of challenges, including that power lines are inherentlya very noisy environment. Every time a device is activated or turnedoff, noise (a pop or click) is added to the power line. Energy-savingdevices within a home may introduce noisy harmonics into a power line.Therefore a communications system using power lines must accommodate thenatural signal disruptions present.

Nearly all large power grids transmit power at high voltages acrosscities or between cities and at medium voltages between and acrossneighborhoods, to reduce transmission losses, using step-downtransformers to reduce the voltage when approaching the end user. As BPLsignals cannot readily pass through transformers, repeaters are attachedto the transformers. In the U.S., typically a small transformer is hungfrom a utility pole to service a small number of (for example, 1 to 10)houses or homes (in some cases, a single house or even only streetlights may be serviced with a transformer). In Europe, a transformerwill typically service a larger number of houses.

Another issue in BPL is signal strength and operating frequency. BPLsystems are expected to use frequencies in the 1 to 35 MHz range, whichis commonly used by licensed amateur radio operators, internationalshortwave broadcasters and other communication systems (military,aeronautical, etc.). Power lines are unshielded and act as transmittersfor the signals they carry, and thus may disrupt the 1 to 35 MHz rangefor such communications purposes.

Attempts to deal with the above challenges include U.S. Pat. No.6,452,482 to Cern. The '482 patent discloses a coupler for coupling adata signal to a conductor in a medium voltage power transmission cable.

U.S. Pat. No. 6,809,633 to Cern discloses a coupling broadband modem topower lines. The '633 patent discloses the use of couplers attached toneutral lines for loopback purposes in low voltage BPL communications.

U.S. Pat. No. 7,091,849 to Henry discloses a method and apparatus forreducing inbound interference in a broadband power line communicationsystem that adjusts the phase or amplitude of one of first or secondcarrier signals.

U.S. Pat. No. 7,088,232 to Wetmore discloses a system and method forreducing radiation when distributing broadband communication systemsover power lines.

FIG. 1 shows a traditional priori art communications system for powergrids, with signal transmission occurring on MV and LV power lines,using couplers 118 and 120 to connect transmitter 112 and receiver 124,respectively, to the power lines, and being subjected to RF noiseproblems, safety concerns, and reliability/durability problems. Utilitypoles include three separate sections, one for distribution for mediumvoltage (MV) power, a utility space for low voltage (LV) power and atelecom space. Traditional BPL equipment for utility pole to utilitypole transmission uses MV lines, and therefore relies on the MVdistribution section of the utility pole. Utility companies oftenrequire a very lengthy approval process (for safety and reliability,durability, etc.) to ensure equipment placed in this section of theutility pole does not negatively affect power on the grid or causesafety problems.

SUMMARY OF THE INVENTION

The system and method according to the invention uses neutral powerlines within a power distribution grid to send communication signals,and provides several advantages over the prior art. The use of neutrallines reduces safety concerns, as linemen will not have to interact withMV lines, which have the potential to injure or kill a person. The useof the neutral line also obviates the need for expensive couplingtechnologies and products used in prior art BPL communications (andwhich are also a common point of failure). The system and methodaccording to the invention also provides faster commercial approval frompower utility companies by reducing concerns relating to reliability,safety and durability, as well as providing shorter installation times.Using neutral lines for BPL communications also results in improvedperformance of the BPL communications because MV power lines aresignificantly noisier than neutral lines, as neutral lines have lessequipment connected to them than do MV lines.

A communications system is provided, including a neutral line connectedto a second line at a point; and first and second ferrites on theneutral line, positioned at opposite first and second sides of saidpoint. The second line may be a ground line. A third ferrite may be onthe ground line, positioned below the point. A modem, such as a BPLmodem, may also be provided having a first output, a second output, anda modem ground line, the first output connected to the neutral line atthe first side of the point outside the first ferrite. The second outputof the modem may be connected to the neutral line at the second side ofthe point outside of the second ferrite, and the modem ground line maybe connected to the ground line below the third ferrite.

A fourth ferrite may be positioned on the first side of the neutralline, between the point and the connection to the first output. A fifthferrite may be positioned on the second side of the neutral line,between the point and the connection to the second output. A sixthferrite may be positioned on the ground line, below the point and abovethe connection to the modem ground line.

A communications system is provided for communicating messages from afirst utility pole to a second utility pole, the first and secondutility poles connected by a MV line and a neutral line, the neutralline connected to a ground line at the first utility pole, the neutralline isolated from the ground line, wherein the messages arecommunicated over the neutral line. The neutral line may be isolatedusing a plurality of ferrites, and a BPL modem may be used tocommunicate messages over the neutral line. The modem may be connectedto the neutral line outside of the plurality of ferrites.

A method of isolating a neutral line for communicating messages thereonis provided, the neutral line connected to a second line at a point,including positioning a first ferrite on a first side of said point, anda second ferrite on a second side of said point. The second line may bea ground line. The method may include placing a third ferrite on theground line, below the point.

The method may further include connecting a modem having a modem groundline and first and second outputs to the neutral line, the first outputconnected to the first side of the neutral line outside of the firstferrite, the second output connected to the second side of the neutralline outside of the second ferrite; and the modem ground line connectedto the ground line below the third ferrite.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a view of a prior art BPL communication system;

FIG. 2 is a view of a utility pole to utility pole transmissionaccording to the invention;

FIG. 3 is a view of power lines running from a utility pole to abuilding;

FIG. 4 is a view of a utility pole and connections to a buildingaccording to the invention.

DETAILED DESCRIPTION OF THE INVENTION

The term “line” as used in this document refers to power lines ortelecommunications lines, and may refer to a single line or wire, or abundle of lines or wires. For example the term neutral line may refer toa single neutral wire, or a bundle of neutral wires.

The system and method according to the invention allow signals to betransmitted over neutral lines present on a typical power distributiongrid provided by power utility companies. These signals can betransmitted both between utility poles, and from utility poles to a homeor building, and through both MV and LV transformers.

As seen in FIG. 2, BPL signals are used to communicate between utilitypole POLE1 and utility pole POLE2. MV electrical lines 10, 20 and 30 andneutral line 40 are strung between utility poles POLE1 and POLE2.According to the invention, BPL signals will be communicated overneutral line 40, whereas prior art BPL communications were communicatedover MV lines 10, 20 and/or 30, in Phase A, Phase B, or Phase C,respectively, at 4 to 66 kV.

With reference to FIG. 3, in a typical connection from a utility pole toa home or building, MV/LV transformer 300 is secured to utility pole310. Electrical harness, such as bus bars 320, 330, and 340 respectivelyconnect LV line 350, neutral line 360 and LV line 370 from transformer300 to a building. Many areas do not use bus bars for wire connections,and instead use other means of physically attaching power lines, such asdirectly joining the wires and/or taping the wires together. Ground line380 connects neutral line 360 through bus bar 330 to the ground.Transformer 300 may have multiple ground connections (which may varydepending on local power regulations, customs, etc.). A step downtransformer, such as transformer 300 usually has at least one groundline and one natural line. As seen in FIG. 3, ground line 380 is theline connected to the middle output connector of transformer 300, and isdesigned to be used for neutral lines. Some jurisdictions connect thepole's ground and neutral lines, and therefore neutral line 360indirectly connects to the ground.

According to the invention, communications are transmitted over neutralline 360 (denoted by the dashed line), whereas in the prior art BPLsignal transmission occurs over Phase A, and/or Phase B using LV lines350 and 370, at 110 or 220 V.

To use BPL communications over neutral lines, the neutral line must beisolated from the ground line. Ferrites, electrically non-conductiveferrimagnetic ceramic compounds, are a useful tool for accomplishingthis. The ferrites serve two primary purposes. The first purpose is toincrease the isolation between the ground line and neutral line toprevent high frequency leakage, and still provide a pass-through for lowfrequency AC power, such as the 60 hz AC used in the U.S. The secondpurpose is to partition a connected neutral line into two segments byincreasing the line's high frequency isolation. In general, the moreferrites used, the more isolated the subject neutral line is. Thisisolation helps prevent noise, such as the transformer noise or groundnoise from being injected into the neutral line, thereby reducing thenoise of the neutral wire and making it more suitable for BPLtransmission. If a utility pole does not have a ground line, ferritesare not needed for the first purpose. Also, in some jurisdictions, notall neutral lines between utility pole segments are connected, in whichcase ferrites are not needed for the second purpose, as the neutral lineis already isolated in this case.

In general, ferrites should be positioned as follows: A first set offerrites should be positioned on the neutral line on a first or “left”side of the neutral line outside of all connections to the neutral lineat the utility pole. Such connections may include a ground line,connections from a transformer (such as the transformer neutral line,transformer casing ground line, or transformer actual ground line), astreet light, a telecommunications neutral line, or others. Theseconnections do not include connections to a BPL modem (as describedbelow). A “set” of ferrites refers to one or more ferrites. A second setof ferrites should be placed on the second, opposite, or “right” side ofthe utility pole, also outside of all connections to the neutral line atthe utility pole. A third set of ferrites are placed on the ground line,below all connections on the ground line. The term “below” does notrequire the ferrites be physically below the connections, but arebetween the actual destination of the ground line (the ground) and theconnections. The first and second outputs from a BPL modem are thenplaced as follows, the first output is connected to the first side ofthe neutral line outside of the first set of ferrite(s), and isconnected to the ground line below the ferrite(s) on the ground line,and the second output is connected to the second, opposite side of theneutral line outside of the second set of ferrite(s) and below theferrite(s) on the ground line.

FIG. 4 shows a representation of an isolated neutral line for use in BPLcommunications according to the invention. Transformer 410 is positionedon utility pole 400. Neutral line 440 extends between pole 400 and thehome or building, as well as to the adjacent utility pole. Ground line450 extends from neutral line 440 to the ground. Ferrites 460 and 470are placed on neutral line 440 on either side, respectively, of neutralline 440's connection 490 to ground line 450. Ferrite 480 is positionedon ground line 450 below connection 490. Ferrites 460, 470 and 480 areall positioned proximate to connection point 490 between neutral line440 and ground line 450 (in general, it is easier to install theferrites the closer they are to connection point 490).

First output 510 of BOL modem 500, meets neutral line 440 outside offerrite 460 at connection point 530. Second output 520 of the BPL modem500 (which also may function as a repeater) is connected to neutral line440 at connection point 560, outside of ferrite 470. Modem neutral line515 connects to ground line 450 at point 550, below ferrite 480. Theterm “outside” as used in this document means located at a point along aline farther from the connection, point or pole than the object or pointreferred to. For example, point 530 is “outside” of ferrite 460 as point530 is farther from connection 490 than is ferrite 460.

FIG. 4 is representative of a possible layout of a utility pole, butmany variations exist in which other connections to neutral line 440 orground line 450 may be present, as previously described.

In general, the more ferrites that are used the greater the isolation ofthe neutral line, and the less noise on the line (and less leakage).Research and testing have demonstrated that about five or six ferritesare most efficient (provide the greatest marginal change in isolation),and provide about 3 db leakage in signal transmission, although the typeof ferrite used and the height of the utility pole may provide differentoptimal numbers. The ferrites, magnetic cores that clamp on a line, maybe standard products, available at a minimal cost. The ferrites can befastened to the line using conventional materials such as tape, aplastic fitting or a controlled grip with a screw.

When used in a communications network, ferrites should be positioned asnecessary at utility poles to maintain signal strength (typically, everyfive poles, although more or less may be necessary depending on noiselevels). A utility pole not connected to a ground or transformer willnot need ferrites to maintain signal strength. The effect of using theferrites is to create a “segment” through which the BPL communicationscan be transmitted, following which another “segment” should be createdusing the ferrites.

Although the particular preferred embodiments of the invention have beendisclosed in detail for illustrative purposes, it will be recognizedthat variations or modifications of the disclosed apparatus lie withinthe scope of the present invention.

1. A communications system comprising: a. a neutral line connected to asecond line at a point; and b. first and second ferrites on said neutralline, positioned at opposite first and second sides of said point. 2.The communications system of claim 1 wherein said second line is aground line.
 3. The communications system of claim 2 further comprisinga third ferrite on said ground line, said third ferrite positioned belowsaid point.
 4. The communications system of claim 3 further comprising amodem, said modem having a first output and a second output and a modemground line, said first output connected to said neutral line at saidfirst side of said point outside said first ferrite and said modemground line connected to said ground line below said third ferrite. 5.The communications system of claim 4 wherein said second output of saidmodem is connected to said neutral line at said second side of saidpoint outside of said second ferrite.
 6. The communications system ofclaim 5 wherein said modem is a BPL modem.
 7. The communications systemof claim 6 further comprising a fourth ferrite, said fourth ferritepositioned on said first side of said neutral line, between said pointand said connection to said first output.
 8. The communications systemof claim 7 further comprising a fifth ferrite, said fifth ferritepositioned on said second side of said neutral line, between said pointand said connection to said second output.
 9. The communications systemof claim 8 further comprising a sixth ferrite, said sixth ferritepositioned on said ground line, below said point and above saidconnection to said modem ground line.
 10. A communications system forcommunicating messages from a first utility pole to a second utilitypole, said first and second utility poles connected by a MV line and aneutral line, said neutral line connected to a ground line at said firstutility pole, said neutral line isolated from said ground line, whereinsaid messages are communicated over said neutral line.
 11. Thecommunication system of claim 10 wherein said neutral line is isolatedusing a plurality of ferrites.
 12. The communications system of claim 11wherein a BPL modem is used to communicate messages over said neutralline.
 13. The communications system of claim 12 wherein said modem isconnected to said neutral line outside of said plurality of ferrites.14. A method of isolating a neutral line for communicating messagesthereon, said neutral line connected to a second line at a point,comprising positioning a first ferrite on a first side of said point,and a second ferrite on a second side of said point.
 15. The method ofclaim 14 wherein said second line is a ground line.
 16. The method ofclaim 15 further comprising placing a third ferrite on said ground line,below said point.
 17. The method of claim 16 further comprisingconnecting a modem having first and second outputs to said neutral line,and a modem ground line to said ground line, said first output connectedto said first side of said neutral line outside of said first ferrite;said second output connected to said second side of said neutral lineoutside of said second ferrite and said modem ground connected to saidground line below said third ferrite.